Document the usage of refresh tokens. (#11427)
Co-authored-by: David Robertson <davidr@element.io>
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Document the usage of refresh tokens.
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- [SSO Mapping Providers](sso_mapping_providers.md)
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- [SSO Mapping Providers](sso_mapping_providers.md)
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- [Password Auth Providers](password_auth_providers.md)
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- [Password Auth Providers](password_auth_providers.md)
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- [JSON Web Tokens](jwt.md)
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- [JSON Web Tokens](jwt.md)
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- [Refresh Tokens](usage/configuration/user_authentication/refresh_tokens.md)
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- [Registration Captcha](CAPTCHA_SETUP.md)
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- [Registration Captcha](CAPTCHA_SETUP.md)
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- [Application Services](application_services.md)
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- [Application Services](application_services.md)
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- [Server Notices](server_notices.md)
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- [Server Notices](server_notices.md)
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# Refresh Tokens
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Synapse supports refresh tokens since version 1.49 (some earlier versions had support for an earlier, experimental draft of [MSC2918] which is not compatible).
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[MSC2918]: https://github.com/matrix-org/matrix-doc/blob/main/proposals/2918-refreshtokens.md#msc2918-refresh-tokens
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## Background and motivation
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Synapse users' sessions are identified by **access tokens**; access tokens are
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issued to users on login. Each session gets a unique access token which identifies
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it; the access token must be kept secret as it grants access to the user's account.
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Traditionally, these access tokens were eternally valid (at least until the user
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explicitly chose to log out).
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In some cases, it may be desirable for these access tokens to expire so that the
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potential damage caused by leaking an access token is reduced.
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On the other hand, forcing a user to re-authenticate (log in again) often might
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be too much of an inconvenience.
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**Refresh tokens** are a mechanism to avoid some of this inconvenience whilst
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still getting most of the benefits of short access token lifetimes.
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Refresh tokens are also a concept present in OAuth 2 — further reading is available
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[here](https://datatracker.ietf.org/doc/html/rfc6749#section-1.5).
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When refresh tokens are in use, both an access token and a refresh token will be
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issued to users on login. The access token will expire after a predetermined amount
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of time, but otherwise works in the same way as before. When the access token is
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close to expiring (or has expired), the user's client should present the homeserver
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(Synapse) with the refresh token.
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The homeserver will then generate a new access token and refresh token for the user
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and return them. The old refresh token is invalidated and can not be used again*.
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Finally, refresh tokens also make it possible for sessions to be logged out if they
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are inactive for too long, before the session naturally ends; see the configuration
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guide below.
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*To prevent issues if clients lose connection half-way through refreshing a token,
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the refresh token is only invalidated once the new access token has been used at
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least once. For all intents and purposes, the above simplification is sufficient.
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## Caveats
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There are some caveats:
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* If a third party gets both your access token and refresh token, they will be able to
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continue to enjoy access to your session.
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* This is still an improvement because you (the user) will notice when *your*
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session expires and you're not able to use your refresh token.
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That would be a giveaway that someone else has compromised your session.
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You would be able to log in again and terminate that session.
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Previously (with long-lived access tokens), a third party that has your access
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token could go undetected for a very long time.
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* Clients need to implement support for refresh tokens in order for them to be a
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useful mechanism.
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* It is up to homeserver administrators if they want to issue long-lived access
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tokens to clients not implementing refresh tokens.
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* For compatibility, it is likely that they should, at least until client support
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is widespread.
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* Users with clients that support refresh tokens will still benefit from the
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added security; it's not possible to downgrade a session to using long-lived
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access tokens so this effectively gives users the choice.
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* In a closed environment where all users use known clients, this may not be
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an issue as the homeserver administrator can know if the clients have refresh
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token support. In that case, the non-refreshable access token lifetime
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may be set to a short duration so that a similar level of security is provided.
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## Configuration Guide
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The following configuration options, in the `registration` section, are related:
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* `session_lifetime`: maximum length of a session, even if it's refreshed.
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In other words, the client must log in again after this time period.
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In most cases, this can be unset (infinite) or set to a long time (years or months).
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* `refreshable_access_token_lifetime`: lifetime of access tokens that are created
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by clients supporting refresh tokens.
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This should be short; a good value might be 5 minutes (`5m`).
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* `nonrefreshable_access_token_lifetime`: lifetime of access tokens that are created
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by clients which don't support refresh tokens.
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Make this short if you want to effectively force use of refresh tokens.
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Make this long if you don't want to inconvenience users of clients which don't
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support refresh tokens (by forcing them to frequently re-authenticate using
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login credentials).
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* `refresh_token_lifetime`: lifetime of refresh tokens.
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In other words, the client must refresh within this time period to maintain its session.
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Unless you want to log inactive sessions out, it is often fine to use a long
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value here or even leave it unset (infinite).
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Beware that making it too short will inconvenience clients that do not connect
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very often, including mobile clients and clients of infrequent users (by making
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it more difficult for them to refresh in time, which may force them to need to
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re-authenticate using login credentials).
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**Note:** All four options above only apply when tokens are created (by logging in or refreshing).
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Changes to these settings do not apply retroactively.
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### Using refresh token expiry to log out inactive sessions
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If you'd like to force sessions to be logged out upon inactivity, you can enable
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refreshable access token expiry and refresh token expiry.
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This works because a client must refresh at least once within a period of
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`refresh_token_lifetime` in order to maintain valid credentials to access the
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account.
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(It's suggested that `refresh_token_lifetime` should be longer than
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`refreshable_access_token_lifetime` and this section assumes that to be the case
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for simplicity.)
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Note: this will only affect sessions using refresh tokens. You may wish to
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set a short `nonrefreshable_access_token_lifetime` to prevent this being bypassed
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by clients that do not support refresh tokens.
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#### Choosing values that guarantee permitting some inactivity
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It may be desirable to permit some short periods of inactivity, for example to
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accommodate brief outages in client connectivity.
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The following model aims to provide guidance for choosing `refresh_token_lifetime`
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and `refreshable_access_token_lifetime` to satisfy requirements of the form:
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1. inactivity longer than `L` **MUST** cause the session to be logged out; and
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2. inactivity shorter than `S` **MUST NOT** cause the session to be logged out.
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This model makes the weakest assumption that all active clients will refresh as
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needed to maintain an active access token, but no sooner.
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*In reality, clients may refresh more often than this model assumes, but the
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above requirements will still hold.*
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To satisfy the above model,
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* `refresh_token_lifetime` should be set to `L`; and
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* `refreshable_access_token_lifetime` should be set to `L - S`.
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